KR102616016B1 - A Wheel with an Axial Load-Bearing Structure by a Ceramic Object - Google Patents

Abstract

The pottery wheel having an axial load support structure by a ceramic object according to the present invention includes a support pillar that extends long in the vertical direction and is fixed so as not to rotate, and is provided to surround the lower circumference of the support pillar, with the support pillar as the center. It is provided to be rotatable and is formed to surround the upper circumference of the support pillar and a lower rotating structure formed to be rotated by the user's operation, and is provided to be rotatable about the support pillar and is connected to the lower rotating structure. It is formed to rotate with the rotation of the lower rotating structure, and includes an upper rotating structure having a seating surface on which a ceramic object is seated.

Description

A wheel with an axial load-bearing structure by a ceramic object {A Wheel with an Axial Load-Bearing Structure by a Ceramic Object}

The present invention relates to a potter's wheel, and more specifically, to a potter's wheel that is configured to rotate a pottery object mounted on the top to produce pottery, and has a support structure for the axial load generated by the pottery object. .

Ceramics, or pottery craft, is a field of craft that expresses various arts using ceramic materials.

This kind of ceramic art includes activities such as producing ceramics, ceramic sculptures, ceramic crafts, ceramic decorations, environmental ceramics, etc., and sinteres the clay through a high-temperature firing process in which ceramic materials are fired in a kiln. and modify its properties, color, and durability.

In the pottery process, a potter's wheel is generally used, which is designed to rotate the pottery object while it is seated, allowing the pottery to be shaped into a specific shape.

However, since the conventional potter's wheel has a simple structure in which the structure on which the ceramic object is mounted simply rotates in the circumferential direction based on the central axis, if the load is biased to one side during the process of deforming the ceramic object, the structure itself may tilt. As friction increases, it becomes difficult to achieve smooth rotation, and there is a problem in that the produced ceramics have an asymmetrical shape.

Therefore, a method to solve these problems is required.

Korea Registered Utility Model No. 20-0440861

The present invention is an invention made to solve the problems of the prior art described above, and is a potter's wheel that enables the production of excellent quality ceramics by providing a stable support structure for the axial load generated by the ceramic object mounted on the top. The purpose is to provide.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

The pottery wheel of the present invention for achieving the above-described object includes a support pillar that extends long in the vertical direction and is fixed so as not to rotate, and is provided to surround the lower circumference of the support pillar. , a lower rotating structure rotatable about the support pillar and formed to be rotated by a user's operation, and a lower rotating structure formed to surround the upper circumference of the support pillar, and rotatable about the support pillar, It is connected to the lower rotating structure and is formed to rotate with the rotation of the lower rotating structure, and includes an upper rotating structure having a seating surface on which a ceramic object is seated.

At this time, the present invention may further include a lower thrust bearing provided at a predetermined position between the lower rotating structure and the support pillar to reduce rotational friction of the lower rotating structure.

In addition, the present invention is provided above the lower thrust bearing between the lower rotating structure and the support column to reduce the rotational friction of the lower rotating structure, and to reduce the gap between the outer peripheral surface of the support column and the inner peripheral surface of the lower rotating structure. It may further include a ball bearing to keep it constant.

In addition, the present invention may further include an upper thrust bearing provided at a predetermined position between the upper rotating structure and the support pillar to reduce the rotational friction of the upper rotating structure.

In addition, the present invention may further include a connecting member provided to connect the lower rotating structure and the upper rotating structure to each other, so that the rotation of the lower rotating structure and the upper rotating structure are interlocked.

In addition, the present invention may further include a bottom plate provided at the lower part of the lower rotating structure and fixing the lower end of the support pillar.

Meanwhile, the present invention provides a plurality of elastic support members disposed between the bottom plate and the lower surface of the lower rotating structure at positions that are point symmetrical with respect to the center point of the lower rotating structure, and providing a restoring force so that the lower rotating structure is in a horizontal state. It may further include.

The pottery wheel of the present invention for solving the above-described problem has an axial load-supporting structure using a ceramic object, which includes a lower rotating structure provided at the lower part centered on a support pillar, and a lower rotating structure provided at the upper part around the supporting pillar. By including an upper rotating structure that rotates interlocked, it is possible to provide a stable support structure for the axial load generated by the ceramic object mounted on the upper part, thereby enabling the production of excellent quality ceramics with a uniform shape. It has the advantage of

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

Figure 1 is a view showing a potter's wheel having an axial load support structure by a ceramic object according to a first embodiment of the present invention;
Figure 2 is an exploded view showing each component of a potter's wheel having an axial load support structure by a ceramic ware according to a first embodiment of the present invention;
Figure 3 is a diagram showing the driving mechanism of a potter's wheel having an axial load support structure by a ceramic object according to a first embodiment of the present invention;
Figures 4 and 5 are diagrams showing the structure of a pottery wheel having an axial load support structure by a ceramic object according to a second embodiment of the present invention; and
Figure 6 is a diagram showing the structure of a potter's wheel having an axial load support structure by a ceramic object according to a third embodiment of the present invention.

In this specification, when a component (or region, layer, portion, etc.) is referred to as being “on,” “connected to,” or “coupled to” another component, it is directly placed/on the other component. This means that they can be connected/combined or a third component can be placed between them.

Like reference numerals refer to like elements. Additionally, in the drawings, the thickness, proportions, and dimensions of components are exaggerated for effective explanation of technical content.

“And/or” includes all combinations of one or more that the associated configurations may define.

Terms such as first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, a first component may be named a second component, and similarly, the second component may also be named a first component without departing from the scope of the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise.

Additionally, terms such as “below,” “on the lower side,” “above,” and “on the upper side” are used to describe the relationship between the components shown in the drawings. The above terms are relative concepts and are explained based on the direction indicated in the drawings.

Unless otherwise defined, all terms (including technical terms and scientific terms) used in this specification have the same meaning as commonly understood by a person skilled in the art to which the present invention pertains. Additionally, terms such as those defined in commonly used dictionaries should be construed as having a meaning consistent with their meaning in the context of the relevant technology, and unless interpreted in an idealized or overly formal sense, are explicitly defined herein. do.

Terms such as “include” or “have” are intended to designate the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, but do not include one or more other features, numbers, or steps. , it should be understood that it does not exclude in advance the possibility of the existence or addition of operations, components, parts, or combinations thereof.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

Figure 1 is a diagram showing a potter's wheel 100 having an axial load support structure using a ceramic object according to a first embodiment of the present invention.

And Figure 2 is an exploded view showing each component of the potter's wheel 100 having an axial load support structure by a ceramic ware according to the first embodiment of the present invention, and Figure 3 is an exploded view showing the first embodiment of the present invention. This is a diagram showing the driving mechanism of the potter's wheel 100, which has an axial load support structure by a ceramic object.

As shown in Figures 1 to 3, the potter's wheel 100 having an axial load support structure by a ceramic object according to the first embodiment of the present invention includes a support pillar 110, a lower rotating structure 120, and an upper rotating structure. It includes a rotating structure 130, a bottom plate 140, and a connecting member 150.

The support pillar 110 extends long in the vertical direction, and the lower part is connected to the lower rotating structure 120, which will be described later, and the upper part is connected to the upper rotating structure 130.

And such a support pillar 110 is provided in a fixed state so as not to rotate. In the case of this embodiment, it may further include a bottom plate 140 provided at the lower part of the lower rotating structure 120, and accordingly, the lower end of the support pillar 110 is a pillar fixing groove formed at the center of the bottom plate 140 ( 141) and is in a fixed state.

At this time, the bottom plate 140 may be formed of a metal material such as iron to have high rigidity, but is not necessarily limited thereto.

The lower rotating structure 120 is provided to surround the lower circumference of the support pillar 110 and is rotatable about the support pillar 110.

That is, the lower rotating structure 120 is formed with a through hole 121 through which the support pillar 110 penetrates at the center, so that it can be rotated in the circumferential direction with respect to the fixed support pillar 110 and the bottom plate 140 that do not rotate. It is provided so that it can be rotated by the user's operation.

For example, the user can rotate the lower rotating structure 120 in the forward or reverse direction using the legs and feet.

At this time, in this embodiment, for smooth rotation of the lower rotating structure 120, a lower thrust is provided at a predetermined position between the lower rotating structure 120 and the support pillar 110 to reduce the rotational friction force of the lower rotating structure 20. It additionally includes a ball bearing 112 that is provided above the lower thrust bearing 111 between the bearing 111, the lower rotating structure 120, and the support pillar 110 to reduce the rotational friction of the lower rotating structure 120. can do.

At this time, the ball bearing 112 may also serve to maintain a constant distance between the outer peripheral surface of the support pillar 110 and the inner peripheral surface of the lower rotating structure 120.

The upper rotating structure 130 is provided to surround the upper circumference of the support pillar 110, and may be rotatable about the support pillar 110. For this purpose, a pillar insertion groove 131 into which the upper part of the support pillar 110 is inserted may be formed in the lower part of the upper rotating structure 130.

And the upper rotating structure 130 is connected to the lower rotating structure 120 and is formed to rotate with the rotation of the lower rotating structure 120, and a seating surface on which the ceramic object 120 is seated is formed at the upper part.

That is, the upper rotating structure 130 is connected to the lower rotating structure 120 and can be rotated together when the user rotates the lower rotating structure 120, and accordingly, the ceramic object 120 mounted on the upper part can be rotated together. Therefore, the user can perform pottery work to form the shape of the pottery object 120.

At this time, in this embodiment, for smooth rotation of the upper rotating structure 130, an upper thrust is provided at a predetermined position between the upper rotating structure 130 and the support pillar 110 to reduce the rotational friction force of the upper rotating structure 130. It may further include a bearing 113.

In addition, in the case of this embodiment, a connecting member 150 is provided to connect the lower rotating structure 120 and the upper rotating structure 130 to each other, so that the rotation of the lower rotating structure 120 and the upper rotating structure 130 is interlocked. It may further include.

In this embodiment, a plurality of connecting members 150 are arranged along the circumference of the support pillar 110 to connect the lower rotating structure 120 and the upper rotating structure 130 to each other, but the connecting member 150 ), of course, can be implemented in various forms, such as a cylindrical shape that entirely surrounds the support pillar 110.

In this way, in this embodiment, the lower rotary structure 120 is provided at the lower part centered on the support pillar 110, and the upper rotary structure is provided at the upper part around the support pillar 110 and the rotation is interlocked with the lower rotary structure 120. By including the structure 130, it is possible to provide a stable support structure for the axial load generated by the ceramic object 10 mounted on the top, thereby enabling the production of excellent quality ceramics with a uniform shape. do.

Below, other embodiments of the present invention will be described. At this time, in each embodiment to be described below, overlapping descriptions of components provided identically to those of the first embodiment described above will be omitted.

Figures 4 and 5 are diagrams showing the structure of a potter's wheel 100 having an axial load support structure by a ceramic object according to a second embodiment of the present invention.

The second embodiment of the present invention shown in FIGS. 4 and 5 has the feature of further including a plurality of elastic support members 160 in addition to each component of the first embodiment described above.

Specifically, the plurality of elastic support members 160 are respectively disposed between the bottom plate 140 and the lower surface of the lower rotating structure 120 at positions that are point symmetrical with respect to the center point of the lower rotating structure 120, and the lower rotating structure 120 ) serves to provide a restoring force to the lower rotating structure 120 so that it is in a horizontal state.

That is, when the lower rotating structure 120 is tilted to one side due to the load of the upper ceramic object 10, the elastic support member 160 located in the tilted direction is elastically deformed and then moves the lower rotating structure 120. It will be restored to its original position. For this purpose, the elastic support member 160 may be implemented in the form of a compression spring.

In this embodiment, four plurality of elastic support members 160 are arranged along the circumference of the support pillar 120, and the lower portion of the elastic support member 160 is inserted into the bottom plate 140. A fixed member insertion groove 142 is formed.

And, as shown in Figure 5, the upper portion of the elastic support member 160 is inserted into the lower surface of the lower rotating structure 120, but interference with the elastic support member 160 does not occur during the rotational movement of the lower rotating structure 120. A ring-shaped communication insertion groove 122 that is connected as a whole may be formed to prevent this.

Accordingly, this embodiment can maintain the horizontal state of the lower rotating structure 120 through the elastic support member 160 and allow the lower rotating structure 120 to rotate smoothly.

Figure 6 is a diagram showing the structure of a potter's wheel 100 having an axial load support structure by a ceramic object according to a third embodiment of the present invention.

The third embodiment of the present invention shown in FIG. 6, like the above-described second embodiment, is point symmetrical with respect to the center point of the lower rotating structure 120 between the bottom plate 140 and the lower surface of the lower rotating structure 120. It includes a plurality of elastic support members 160 disposed at each position.

In addition, the bottom plate 140 has a member insertion groove 142 into which the lower part of the elastic support member 160 is inserted and fixed, and the upper part of the elastic support member 160 is inserted into the lower surface of the lower rotating structure 120, It is also the same as the second embodiment in that a ring-shaped communication insertion groove 122 that is connected as a whole is formed to prevent interference with the elastic support member 160 during the rotational movement of the lower rotating structure 120.

However, this embodiment has the feature that the lower rotating structure 120 further includes a friction reduction module 170 that reduces friction between the communication insertion groove 122 and the elastic support member 160 when the lower rotating structure 120 rotates.

Specifically, the friction reduction module 170 includes a base member 171 provided between the ceiling surface of the communication insertion groove 122 and the upper surface of the elastic support member 160, and an upper end portion of the base member 171. It includes a ball member 172 that performs a rolling motion while in contact with the ceiling surface of the flue insertion groove 122.

That is, in this embodiment, when the lower rotating structure 120 is rotated, the ball member 172 of the friction reduction module 170 performs a rolling motion while in contact with the ceiling surface of the communication insertion groove 122. Accordingly, friction occurring between the communication insertion groove 122 and the elastic support member 160 can be minimized during the rotation of the lower rotating structure 120, allowing the lower rotating structure 120 to rotate more smoothly.

As described above, the preferred embodiments according to the present invention have been examined, and the fact that the present invention can be embodied in other specific forms in addition to the embodiments described above without departing from the spirit or scope thereof is recognized by those skilled in the art. It is self-evident to them. Therefore, the above-described embodiments are to be regarded as illustrative and not restrictive, and thus the present invention is not limited to the above description but may be modified within the scope of the appended claims and their equivalents.

10: Ceramic objects
100: Pottery wheel having an axial load support structure by a ceramic object
110: support pillar
111: Lower thrust bearing
112: ball bearing
113: Upper thrust bearing
120: Lower rotation structure
121: Through hole
122: Flue insertion groove
130: Upper rotation structure
131: Column insertion groove
140: Bottom plate
141: Column fixing groove
142: Member insertion groove
150: connecting member
160: Elastic support member
170: Friction reduction module
171: Base member
172: Ball member

Claims (7)

A support pillar that extends long in the vertical direction and is fixed so as not to rotate;
a lower rotating structure provided to surround a lower circumference of the support pillar and rotatable about the support pillar to be rotated by a user's manipulation;
It is provided to surround the upper circumference of the support pillar and is rotatable about the support pillar, is connected to the lower rotating structure and is formed to rotate with the rotation of the lower rotating structure, and a ceramic object is seated on the upper part. an upper rotating structure having a seating surface;
A bottom plate provided at the lower part of the lower rotating structure and fixing the lower end of the support pillar; and
A plurality of elastic elements disposed between the bottom plate and the lower surface of the lower rotating structure at positions that are point-symmetrical with respect to the center point of the lower rotating structure, and providing a restoring force to the lower rotating structure so that the lower rotating structure is in a horizontal state. support member;
Includes,
A member insertion groove is formed in the bottom plate into which a lower part of the elastic support member is inserted and fixed,
The upper part of the elastic support member is inserted into the lower surface of the lower rotating structure, and a ring-shaped communication insertion groove is formed as a whole to prevent interference with the elastic support member during rotation of the lower rotating structure. ,
The lower rotating structure is,
When the lower rotating structure rotates, it further includes a friction reduction module that reduces friction between the communication insertion groove and the elastic support member,
The friction reduction module is,
a base member provided between the ceiling surface of the communication insertion groove and the upper surface of the elastic support member;
a ball member provided on the base member and performing a rolling motion with its upper end in contact with the ceiling surface of the communication insertion groove;
Including,
When the lower rotating structure is rotated, the ball member performs a rolling motion while in contact with the ceiling surface of the communication insertion groove, thereby reducing friction occurring between the communication insertion groove and the elastic support member.
A potter's wheel with an axial load support structure supported by a pottery vessel. According to paragraph 1,
Further comprising a lower thrust bearing provided at a predetermined position between the lower rotating structure and the support pillar to reduce rotational friction of the lower rotating structure,
A potter's wheel with an axial load support structure supported by a pottery vessel. According to paragraph 2,
It is provided above the lower thrust bearing between the lower rotating structure and the support column to reduce rotational friction of the lower rotating structure, and to maintain a constant gap between the outer peripheral surface of the support column and the inner peripheral surface of the lower rotating structure. Further comprising a ball bearing,
A potter's wheel with an axial load support structure supported by a pottery vessel. According to paragraph 1,
Further comprising an upper thrust bearing provided at a predetermined position between the upper rotating structure and the support pillar to reduce rotational friction of the upper rotating structure,
A potter's wheel with an axial load support structure supported by a pottery vessel. According to paragraph 1,
It is provided to connect the lower rotating structure and the upper rotating structure to each other, further comprising a connecting member that allows the rotation of the lower rotating structure and the upper rotating structure to be interlocked,
A potter's wheel with an axial load support structure supported by a pottery vessel. delete delete